Naslov
Hyperbolic plasmon modes in tilted Dirac cone phases of borophene

Autori
Torbatian, Zahra ; Novko, Dino ; Asgari, Reza

Izvornik
Physical Review B (2469-9950) 104 (2021), 7; 075432, 10

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
Hyperbolic plasmons, electron-phonon coupling, 2D materials, DFT

Sažetak
Hyperbolic materials are receiving significant attention due to their ability to support electromagnetic fields with arbitrarily high momenta and, hence, to achieve very strong light confinement. Here, based on first-principles calculations and many-body perturbation theory, we explore the characteristic of two-dimensional plasmon modes and its hyperbolic properties for two phases of single-layer boron hosting tilted Dirac cone, namely, the hr−sB and 8Pmmn borophene. In-plane anisotropy in borophene is manifested in the structural, electronic, vibrational, and optical properties. We find two hyperbolic regimes for both phases of borophene, where the high-energy one is located in the visible range. The hr−sB borophene is characterized with an intrinsic high carrier density and it supports strong hyperbolic plasmon modes in the visible part of the spectrum. The 8Pmmn borophene, on the other hand, resembles the prototypical Dirac material graphene and on carrier doping acquires anisotropic Dirac plasmons in the mid-infrared. We have also investigated the impact of the electron-phonon coupling and Landau damping on these hyperbolic plasmon modes. Our results show that borophene, having high anisotropy, intrinsic high carrier concentration, low-loss hyperbolic Dirac plasmon modes, and high confinement can represent a promising candidate for low-loss broadband surface plasmon polariton devices.

Izvorni jezik
Engleski

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